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RESEARCH PRODUCT
Validity of NMR pore-size analysis of cultutal heritage ancient building materials containing magnetic impurities
Maria BraiMirko GombiaCinzia CasieriCinzia CasieriCamilla TerenziPaola FantazziniF. De Lucasubject
Pore sizeNuclear and High Energy PhysicsNMR porosimetryPOROUS-MEDIAMineralogyGRADIENTSNMR building materialsSingle-sided NMRImpurityPORE-SIZE DISTRIBUTIONSStatistical physicsInstrumentationNMR porous mediaRadiationChemistryIN SITU ANALYSISRelaxation (NMR)nmr building materials; nmr cultural heritage; nmr porosimetry; nmr porous media; nmr relaxation; pore-size distribution; single-sided nmr; taormina theatrePOROUS MEDIANMR cultural heritageGeneral ChemistryRESONANCENmr dataFIELDSDIFFUSIONNMRMagnetic fieldPore-size distributionCultural heritageDistribution (mathematics)Taormina TheatreNMR relaxationCULTURAL HERITAGEMercury intrusion porosimetrydescription
NMR relaxation time distributions, obtained with laboratory and portable devices, are utilized to characterize the pore-size distributions of building materials coming from the Roman remains of the Greek-Roman Theatre of Taormina. To validate the interpretation of relaxation data in terms of pore-size distribution, comparison of results from standard and in situ NMR experiments with results of the mercury intrusion porosimetry (MIP) has been made. Although the pore-size distributions can be obtained by NMR in terms of either longitudinal (T-1) or transverse (T-2) relaxation times distributions, the shorter duration of the T-2 measurement makes it, in principle, preferable, although the determination of T-2 distributions is not necessarily an easy alternative to finding T-1 distributions. Among other things, the T-2 distribution is almost independent of the inhomogeneity of the magnetic field, while the T-2 distribution is strongly influenced by it. This paper was aimed at answering two questions: what are the validity limits to interpret NMR data in terms of pore-size distributions and whether the portable device can successfully be applied as a non-destructive and non-invasive toot for in situ NMR analysis of building materials, particularly those of Cultural Heritage interest. (C) 2007 Elsevier Inc. All rights reserved.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-01-01 |